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Because one gene codes for one polypeptide and some proteins are made of more than one polypeptide and stuck together after translation of the genes that code for these polypeptides.

Not sure if there ever was a one gene one protein hypothesis or if its just something they teach in schools to avoid overcomplicating things.

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What does the one gene-one polypeptide state?

The one gene-one polypeptide hypothesis states that each gene is responsible for producing one specific polypeptide, which is a chain of amino acids that forms a protein. However, this hypothesis has been modified to the one gene-one protein hypothesis because some genes code for non-protein products like RNA molecules.


What is the one gene-one polypeptide hypothesis?

The one gene-one polypeptide hypothesis is an idea in an attempt to fix the one gene-one protein hypothesis (previously one gene-one enzyme hypothesis) after scientists realized that proteins can be made up by more than one polypeptide chain and that each polypeptide chain is specified by its own gene. An example would be a protein like hemoglobin, the oxygen transporting protein of vertebrate blood cells. Hemoglobin is made up of two kinds of polypeptides. Because of the two polypeptide chains, hemoglobin is made up of two genes. While this hypothesis was an improvement, it wasn't entirely true. While the example is true, the fact of the matter is, eukaryotes are much more complex than 1940s (around the time that Tatum and Beadle first came up with the one gene-one enzyme hypothesis ) technology allowed for scientists to understand. There is a step in RNA processing or post-transcriptional modification where parts of the transcribed gene is cut out (the cut out part is called the intron). Because of this mechanism, it is possible for a single gene to create more than 1 polypeptide.


How did beadle and tatum's research result in the one gene-one polypeptide hypothesis?

The major breakthrough in demonstrating the relationship between genes and proteins came in the 1940s. American geneticists George Beadle and Edward Tatum worked with the orange bread mold Neurospora crassa. Beadle and Tatum studied mutant strains of the mold that were unable to grow on the usual nutrient medium. Each of these mutant strains turned out to lack a single enzyme needed to produce some molecule the mold needed, such as a vitamin or an amino acid. Beadle and Tatum also showed that each mutant was defective in a single gene. Their research led them to propose the "one gene-one enzyme" hypothesis. This hypothesis states that the function of an individual gene is to dictate the production of a specific enzyme.Since then, scientists have learned that some genes actually dictate the production of a single polypeptide, which may make up part of an enzyme or another kind of protein. Beadle and Tatum's hypothesis is now generally stated as one gene-one polypeptide.


The one gene one polypeptide theory states that?

The one gene-one polypeptide theory states that for every gene one protein is synthesized n a cell. This theory has lost favor with the discoveries of post-translational modification, protein splicing and epigenetics, all of which support the production of multiple protein products from a single gene.


Why has beadle and tatoms one gene - one enzyme hypothesis been midified since the presented it in 1940s?

Tatum and Beadle proposed the "one gene one enzyme" theory. One gene code is responsible for the production of a single protein. "One gene one enzyme" is modified to "one gene one polypeptide" because the majority of proteins are composed of multiple polypeptides.

Related Questions

What does the one gene-one polypeptide state?

The one gene-one polypeptide hypothesis states that each gene is responsible for producing one specific polypeptide, which is a chain of amino acids that forms a protein. However, this hypothesis has been modified to the one gene-one protein hypothesis because some genes code for non-protein products like RNA molecules.


The one gene one polypeptide hypothesis is the currently accepted hypothesis explaining how genes help to determine the phenotype of an organism?

The one gene one polypeptide hypothesis posits that each gene in our DNA encodes for a specific polypeptide or protein. Each protein plays a role in determining the traits or characteristics of an organism. This hypothesis helps in understanding how genetic information is transferred from DNA to proteins, which are key players in determining an organism's phenotype.


What is the one gene-one polypeptide hypothesis?

The one gene-one polypeptide hypothesis is an idea in an attempt to fix the one gene-one protein hypothesis (previously one gene-one enzyme hypothesis) after scientists realized that proteins can be made up by more than one polypeptide chain and that each polypeptide chain is specified by its own gene. An example would be a protein like hemoglobin, the oxygen transporting protein of vertebrate blood cells. Hemoglobin is made up of two kinds of polypeptides. Because of the two polypeptide chains, hemoglobin is made up of two genes. While this hypothesis was an improvement, it wasn't entirely true. While the example is true, the fact of the matter is, eukaryotes are much more complex than 1940s (around the time that Tatum and Beadle first came up with the one gene-one enzyme hypothesis ) technology allowed for scientists to understand. There is a step in RNA processing or post-transcriptional modification where parts of the transcribed gene is cut out (the cut out part is called the intron). Because of this mechanism, it is possible for a single gene to create more than 1 polypeptide.


What is the job of a gene?

A gene codes for one type of polypeptide (protein).


Alternative RNA splicing has revealed inaccuracies in the one gene - one polypeptide hypothesis. Why?

Alternative RNA splicing demonstrates that a single gene can produce multiple protein variants, contradicting the one gene - one polypeptide hypothesis. This process allows for different combinations of exons to be included or excluded in the final mRNA transcript, resulting in diverse polypeptides from a single gene. Consequently, this complexity reveals that gene expression is more nuanced than the simplistic notion of one gene corresponding to one protein. It highlights the sophistication of genetic regulation and the potential for increased functional diversity in proteins.


What is the smallest segment of DNA needed to produce a polypeptide or protein?

The smallest segment of DNA needed to produce a polypeptide or protein is a gene. A gene contains the instructions for making a specific protein through the process of transcription and translation. The gene includes sequences that code for the protein as well as regulatory regions that control its expression.


How did beadle and tatum's research result in the one gene-one polypeptide hypothesis?

The major breakthrough in demonstrating the relationship between genes and proteins came in the 1940s. American geneticists George Beadle and Edward Tatum worked with the orange bread mold Neurospora crassa. Beadle and Tatum studied mutant strains of the mold that were unable to grow on the usual nutrient medium. Each of these mutant strains turned out to lack a single enzyme needed to produce some molecule the mold needed, such as a vitamin or an amino acid. Beadle and Tatum also showed that each mutant was defective in a single gene. Their research led them to propose the "one gene-one enzyme" hypothesis. This hypothesis states that the function of an individual gene is to dictate the production of a specific enzyme.Since then, scientists have learned that some genes actually dictate the production of a single polypeptide, which may make up part of an enzyme or another kind of protein. Beadle and Tatum's hypothesis is now generally stated as one gene-one polypeptide.


The one gene one polypeptide theory states that?

The one gene-one polypeptide theory states that for every gene one protein is synthesized n a cell. This theory has lost favor with the discoveries of post-translational modification, protein splicing and epigenetics, all of which support the production of multiple protein products from a single gene.


Why has beadle and tatoms one gene - one enzyme hypothesis been midified since the presented it in 1940s?

Tatum and Beadle proposed the "one gene one enzyme" theory. One gene code is responsible for the production of a single protein. "One gene one enzyme" is modified to "one gene one polypeptide" because the majority of proteins are composed of multiple polypeptides.


How does the COX1 protein still functionif the COX1 gene is altered between species?

The COX1 protein can still function if the gene is altered between species due to its high rate of mutation as well as the fact that its sequence is conserved.


Why beadle and tatums one gene one enzyme hypothesis has been modified scince they presented it in the 1940s?

The one gene-one enzyme hypothesis has been modified to the one gene-one polypeptide hypothesis because not all proteins are enzymes. Proteins can have various functions beyond enzymatic activity, such as structural roles. Additionally, some genes may encode for multiple protein products through alternative splicing, post-translational modifications, or other mechanisms.


What is the DNA segment that carries information for building one protein or polypeptide chain called?

mRNA ( it is like DNA only it is one sided and the t is replaced with a u)